Personalizing an online service based on data collected for a user of a computing device

ABSTRACT

An Internet or other online service is personalized or customized based on data collected for a user of a computing device. In one embodiment, a method includes: storing a plurality of person profiles for persons associated with communications received by a user of a computing device; receiving data associated with an online service; and filtering, using at least one processor, the data based on the plurality of person profiles, wherein the filtered data is for display to the user on the computing device.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is a continuation application of U.S. patentapplication Ser. No. 13/531,337, filed on Jun. 22, 2012, which claimspriority to U.S. Prov. App. Ser. No. 61/500,613, filed Jun. 24, 2011,both entitled “Personalizing an Online Service Based on Data Collectedfor a User of a Computing Device,” the entire disclosure of whichapplications are incorporated herein by reference.

The present application is related to U.S. patent application Ser. No.12/792,698, filed Jun. 2, 2010, entitled “SELF POPULATING ADDRESS BOOK,”by Smith et al., which was also published as U.S. Patent Publication No.2010/0306185 on Dec. 2, 2010, the entire contents of which applicationsare incorporated by reference as if fully set forth herein.

The present application is also related to U.S. Patent Application Ser.No. 61/423,052, filed Dec. 14, 2010, entitled “SENDER-BASED RANKING OFPERSON PROFILES AND MULTI-PERSON AUTOMATIC SUGGESTIONS,” by PeterMonaco, and also to U.S. Patent Publication No. 2012/0150979 publishedon Jun. 14, 2012, and having the same title and inventor as theforegoing provisional application, the entire contents of whichapplications are incorporated by reference as if fully set forth herein.

The present application is also related to Patent Publication No. US2009/0031232, published Jan. 29, 2009, entitled “METHOD AND SYSTEM FORDISPLAY OF INFORMATION IN A COMMUNICATION SYSTEM GATHERED FROM EXTERNALSOURCES,” by Brezina et al., the entire contents of which application isincorporated by reference as if fully set forth herein.

The present application is also related to Patent Publication No. US2009/0031245, published Jan. 29, 2009, entitled “METHOD AND SYSTEM FORCOLLECTING AND PRESENTING HISTORICAL COMMUNICATION DATA,” by Brezina etal., the entire contents of which application is incorporated byreference as if fully set forth herein.

The present application is also related to Patent Publication No. US2009/0106676, published Apr. 23, 2009, entitled “APPLICATION PROGRAMMINGINTERFACES FOR COMMUNICATION SYSTEMS,” by Brezina et al., the entirecontents of which application is incorporated by reference as if fullyset forth herein.

FIELD OF THE TECHNOLOGY

At least some embodiments disclosed herein relate to data andinformation processing systems in general, and more particularly, butnot limited to, personalizing or customizing an Internet or other onlineservice based on data collected for a user of a computing device.

BACKGROUND

The Twitter online service previously has launched a so-called “TwitterLists” feature that provides a way to organize the people that a personis following on the Twitter service. Twitter Lists are a “groups”feature and offer a way for a person to collect together other users onTwitter into groups so that the person can get an overview of what theseother users are doing. These Twitter Lists are not static listings ofusers, but are curated Twitter streams of the latest tweets from aspecified set of users.

A user can create a list that groups together people for whatever reasonthe user may decide (e.g., the members of the user's family), and thenthe user can get a snapshot of the things those other users are sayingonline by viewing the page for that particular list (i.e., the page forthat specific Twitter List that the user created). This page includes acomplete tweet stream for everyone on the list. These lists allow theuser to organize the people the user is following into groups, and thelists allow the user to include people that the user is not following.

Because Twitter Lists create grouped tweet streams of the people thatare on them, a user can use Lists to organize the user's tweets intogroups based on anything the user desires. For example, a list of everyemployee at a company may be created. By viewing or following thiscompany list, the user could easily see what all of the company'semployees are tweeting about. The user can do the same thing with his orher co-workers, family, or friends, or just group Twitter users based onlocation, subject, or anything else the user may select.

When a user follows a Twitter List, the user is not actually followingevery user on the list, but is following the entire list—those users'tweets aren't added to the user's main stream. The user can then visitthat list and view its tweet stream. This is why the user can also useLists to follow people without really following them. For example, ifthere are users whose tweets a user would like to follow, but whom theuser does not necessarily want in his or her main Twitter stream (e.g.,they tweet too often for a user's personal liking), the user can addthem to a list and then check up on their latest tweets every once in awhile by viewing the user's list.

SUMMARY OF THE DESCRIPTION

Systems and methods for personalizing or customizing an Internet orother online service based on data collected for a user of a computingdevice (e.g., a mobile device, a desktop computer, or other computingdevice) are described herein. Some embodiments are summarized in thissection.

In one embodiment, a method includes: storing a plurality of personprofiles for persons associated with communications received by a userof a computing device; receiving data associated with an online service;and filtering, using at least one processor, the data based on theplurality of person profiles, wherein the filtered data is for displayto the user on the computing device (e.g., display via a web pagepresented on a desktop or laptop computer).

In one embodiment, each of the persons associated with thecommunications received by the user may be a person cc'd or copied onone of the communications, a person bcc'd or blind-copied on one of thecommunications, a sender of one of the communications, a recipient ofone of the communications, or a person referenced in the body, text, orother content of one of the communications.

In various embodiments, the computing device may be a mobile device(e.g., an iPhone or Android device), a desktop computer, a laptopcomputer, a tablet computer, or a computing apparatus for presentinginformation on an advertising display or electronic billboard (e.g., abillboard in Times Square or other forms of display suitable for publicpresentation).

In another embodiment, a method includes: storing, using at least oneprocessor, a plurality of person profiles for persons associated withcommunications received by a user of a computing device (e.g., a desktopcomputer); creating a list of persons available on an online service;receiving a feed (e.g., a list or stream of messages or otherinformation) from the online service that is based on the list ofpersons; and customizing the feed based on the plurality of personprofiles.

In another embodiment, a method includes: storing a plurality of personprofiles for persons associated with communications received by a userof a computing device; determining a set of persons of the personprofiles that are active on an online service; filtering the set ofpersons to provide a plurality of highly-ranked persons, the filteringbased on the plurality of person profiles; and creating a list using thehighly-ranked persons, wherein the list is for presentation to the useron the computing device.

The disclosure includes methods and apparatuses which perform thesemethods, including data processing systems which perform these methods,and computer readable media containing instructions which when executedon data processing systems cause the systems to perform these methods.

Other features will be apparent from the accompanying drawings and fromthe detailed description which follows.

BRIEF DESCRIPTION OF THE DRAWINGS

The embodiments are illustrated by way of example and not limitation inthe figures of the accompanying drawings in which like referencesindicate similar elements.

FIG. 1 shows a user screen on a display of a computing device (e.g., aweb page presented on a desktop computer) having a list of a logged-inuser's top-ranked contacts according to one embodiment.

FIG. 2 shows a user screen example of a user's typical home streamaccording to one embodiment.

FIG. 3 shows on the left a user screen depiction of an input box where auser can type his or her own tweets and send them, and further shows onthe right a user screen depiction of the stream of tweets coming fromtweeters that have been determined to be more meaningful contacts (e.g.,as based on relevancy rankings) for the user, according to oneembodiment.

FIG. 4 shows on the left a user screen depiction of the handling oftemporary errors/server downtime, and further shows on the right a userscreen depiction of the handling of notifications of new tweets fromTwitter users, according to one embodiment.

FIG. 5 shows on the left a mention in a user screen of a Twitter list,and further shows on the right the handling in a user screen of a userwho is not logged into Twitter, according to one embodiment.

FIG. 6 shows a system to personalize or customize an Internet or otheronline service based on data collected for a user according to oneembodiment.

FIG. 7 shows a block diagram of a data processing system which can beused in various embodiments.

FIG. 8 shows a block diagram of a user device according to oneembodiment.

DETAILED DESCRIPTION

The following description and drawings are illustrative and are not tobe construed as limiting. Numerous specific details are described toprovide a thorough understanding. However, in certain instances, wellknown or conventional details are not described in order to avoidobscuring the description. References to one or an embodiment in thepresent disclosure are not necessarily references to the sameembodiment; and, such references mean at least one.

Reference in this specification to “one embodiment” or “an embodiment”means that a particular feature, structure, or characteristic describedin connection with the embodiment is included in at least one embodimentof the disclosure. The appearances of the phrase “in one embodiment” invarious places in the specification are not necessarily all referring tothe same embodiment, nor are separate or alternative embodimentsmutually exclusive of other embodiments. Moreover, various features aredescribed which may be exhibited by some embodiments and not by others.Similarly, various requirements are described which may be requirementsfor some embodiments but not other embodiments.

In one embodiment, a server stores and analyzes data associated with auser of a computing device (e.g., a mobile device). The server may storethe data, for example, in a database in the form of person profiles. Thedata collected may be associated with prior communications and/or otheractivity of the user on the mobile or other computing device (e.g., dataextracted from prior emails or other communications received or sent bythe user). The data may be, for example, extracted by the server in thecourse of the transmission of the communications, the mobile or othercomputing device may send the data to the server, and/or otherapproaches may be used by the server to collect the data. Numerousexamples of various types of data (e.g., person profiles for callersassociated with the user) that may be collected in a database for theuser are described in U.S. patent application Ser. No. 12/792,698 and/orother of the patent applications and patent publications incorporated byreference above.

In one embodiment, data may be collected from multiple differentdevices. For example, data may be collected from a user of a web page, adesktop application, a mobile device, etc. Feeds as described herein(e.g., a curated feed or stream of more meaningful or relevant contacts)may be displayed on multiple different devices such as, for example, amobile device, another computing platform presenting a web page to auser, as part of a user interface in a desktop application, or even onpublic or large-scale display or advertising devices (e.g., Times Squareticker feed display). In addition, the behavior of a user on a mobileand other devices may be observed to provide data as to the user'scontext, and data be collected from these observations (e.g., by aserver or otherwise). For example, data may be collected from thebehavior of a user when the user is interacting with a desktopapplication, or making selections or other actions within a web page,etc.

The data collected on the server may be used to customize the providingof an online service (e.g., the Twitter service and providing of Twitterfeeds or tweets) to the user. In one embodiment, the data collected forthe user represents an implicit or social graph of the user that is usedto filter or select a subset of data from a larger set of dataassociated with the online service. For example, the social graph may beused by a user of Twitter to select new people to follow on the Twitterservice, or to customize the Twitter feed (e.g., to select the people toinclude in the feed). The use of the social graph may be done on areal-time or other periodic, dynamic basis (e.g., as the collected datais updated on the server, changes in the customization of the onlineservice may be implemented). In other embodiments, the online servicemay be a travel service, a texting service, an e-commerce service or yetother services.

In an alternative embodiment, filtering of a feed may be based on morethan merely a ranking of contacts. More specifically, a feed may befiltered based on the ratio of noise to a contact's rank. In otherwords, a contact determined to be un-important (e.g., having a rankbelow a predetermined threshold) is still included in the feed eventhough the contact tweets infrequently (e.g., less than once or othergiven number of times in a given time period). However, if thisun-important contact (e.g., a low-ranked person based on relevancy) isnoisy (e.g., tweets frequently, say more than a predetermined number oftweets for a given time period), the contact will be excluded. Thiscreates a more diverse feed without flooding a user with lots ofundesirable information. Although volubility may be used for such anoise filter, in other embodiments content analysis, personalrelationship distance, similarity in job distance, etc., could also beused.

In one embodiment, a mobile device of a user or a server associated withthe mobile device or the user stores data (e.g., in a database in theform of person profiles) associated with prior communications and/orother activity of the user on the mobile device (e.g., data extractedfrom one of more of the following: prior communications such as email ortext messages, voice messages, or other documents or informationreceived by the user from the user's friends or other persons such aswork associates). The other activity may include the manner or ways inwhich the user operates the mobile device (e.g., what buttons orfunctions or activated when the user has previously interacted withanother person, or what online service is used by the user whenpreviously interacting with another person). This collected data is usedfor determining a ranking of contacts for personalizing or customizingan online service.

In one embodiment, a ranking server (e.g., ranking server 123 of FIG. 6discussed below) collects email and other communications data associatedwith a mobile device of a user as described above. This ranking server,or alternatively a different server in other embodiments, determines aranking of a predetermined number of the user's most highly-rankedcontacts/persons (e.g., a top 100 list). A server obtains data for someor all users that are available or active on the Twitter service (e.g.,this data may include Twitter screen names provided or made available bythe Twitter service).

Using this obtained data, the ranking server determines which of themost highly-ranked contacts are on the Twitter service (e.g., bymatching Twitter screen names or other information from the Twitterservice with corresponding or related data in person profiles previouslyextracted from user communications data), and then a Twitter List iscreated using these contacts. The Twitter List (or data from the TwitterList) is followed by the user (e.g., on the user's mobile device) orotherwise presented to the user. As an alternative to use of the TwitterList, these contacts may be indicated to the Twitter service as contactsto be followed by the user.

The foregoing process can be dynamic such that the rankings and selectedcontacts change, for example, hourly or daily or using anotherpredetermined time period. The ranking server also may infer data fromuser behavior on his or her mobile device. For example, the ranking maybe adjusted for certain criteria on a mobile phone due to a mobiledevice being more temporally-based or focused. In contrast, othercriteria that is less temporally focused may be used, for example, on adesktop computer of the user, or for the user's Outlook emailclient/account.

Thus, different user contexts may be used to provide different rankingsappropriate to those contexts, and thus different feeds of data may beprovided from the Twitter service to different, particular devices ofthe user (e.g., a mobile device feed is different than a tablet computerfeed). For example, the top 100 contacts for a user's phone may bedifferent than the top 100 contacts for the user's desktop computer, orthe top 100 contacts from use of Outlook email.

In one embodiment, the list of persons for a user to follow on Twittermay be selected based on a ranking determined from relevancy of eachperson to the user by ranking of each person from data collected on theserver associated with the mobile device. For example, this ranking maybe done as described for ranking of contacts in U.S. patent applicationSer. No. 12/792,698, incorporated by reference above.

In another embodiment, a Twitter List is used. A user of the Twitterservice can create a Twitter List (and any Twitter contact may be addedto the user's list). This Twitter List will create a feed from everyoneon the List (so the user does not have to actually follow them). ATwitter List for a user is created and the List is given a name (e.g.,Bambi). The user signs onto the Twitter service, and a server createsthis List on the user's account on behalf of the user. The user then maylog in (e.g., log into www.twitter.com) to see the feed from the List.

A user interface with a List tab may be presented to the user, and theList is accessed using this tab. The user does not create this Listherself—instead a server acting at the user's request creates this Listfor the user from one or more servers by analyzing the data previouslycollected for the user.

If the user clicks on a user screen, the user can see tweets fromnumerous contacts on the Twitter service. The List can be created forthe user, and then the user may access this List from any computingdevice that is configured to access the Twitter service and thatsupports Twitter Lists (e.g., a Twitter client).

FIG. 1 shows a user screen 10 on a display of a computing device (e.g.,a web page presented on a desktop computer) having a list of a logged-inuser's top-ranked contacts 12 according to one embodiment. There is anaffordance 14 (indicated by “Tweeting Now”) to view either the user'shome stream (the stream of tweets the user would normally see in aTwitter client) or the stream 16 of tweets from the user's most relevantcontacts. The list of users whose tweets appear in the latter is theresult of the contact ranking process applied to collected data as wasdiscussed above, the use of logic and processing to determine whichcontacts are on Twitter, and the use of logic and processing todetermine which contacts on Twitter will be contacts for which the useris interested in seeing their tweets.

FIG. 2 shows a user screen 20 example of a user's typical home streamaccording to one embodiment. A toggle button 22 on the top right is onthe bird icon, indicating this is the Twitter home stream. Any tweetsshown in this view that are from contacts known to the ranking server(i.e., the server that ranks contacts from user collected data) maycontain information about the tweeter not normally shown in a typicalpresentation of the user's home Twitter stream. For example, the rankingserver may know the proper name for this tweeter (e.g., correct spellingor nickname as determined from email header information, email bodycontents, or other features of the emails the user has previouslyreceived), and may display it to the user. As another example, clickingon a tweet from a known contact will cause the ranking server to showthe user a contact card describing information the ranking server knowsabout that user (e.g., name, phone number, email addresses, companyworked at, job title and description, etc.).

FIG. 3 shows on the left a user screen 30 depiction of an input boxwhere a user can type his or her own tweets and send them, and furthershows on the right a user screen 32 depiction of the stream of tweetscoming from tweeters that have been determined to be more meaningfulcontacts (e.g., based on relevancy ranking and/or other criteria) forthe user, according to one embodiment. The toggle button 34 on the topright is on the Xobni person icon (opposite the bird icon), indicatingthat this is the stream of tweets from the ranking server. Some of thetweeters whose tweets are listed here may already be someone the user isfollowing in his or her home stream (as indicated by the check mark nextto the tweeter), but many may and typically will likely not be. Theranking server typically will have found contacts meaningful to thelogged-in user who are tweeting (and which the user is not following—itis likely that the user had no idea these contacts were tweeting or whattheir Twitter screen names are).

As was mentioned above for FIG. 2, because these tweeters are contactsknown to the ranking server, the ranking server (or associated servers)may be used to display richer contact information for the tweeters thanis shown in typical Twitter clients (e.g. name, phone number, and otherpersonal and professional details). Also, as mentioned above for FIG. 2,clicking on a tweet from one of these users will cause the rankingserver to display a richer set of information about the contact than canbe easily displayed in just a small screen area.

Finally, it should be noted that a mouse-over user movement in the userinterface provides the user access to typical Twitter operations (e.g.follow, reply, retweet); but again, this is for tweets the user isseeing because the ranking server has determined that these contacts aretweeters who are likely to be interesting to the logged-in user, eventhough the user is not explicitly following them on Twitter. Notdepicted here is that these tweets are gleaned from the Twitter serviceby assembling a Twitter List consisting of the Twitter IDs that matchthe contacts that the ranking server has determined are meaningful tothe user (and who have Twitter IDs).

In an alternative embodiment, a user's home stream and a user's curatedstream (i.e., stream for more meaningful contacts) may be combined forpresentation. More specifically, a display of combined tweets (notillustrated) that come from the user's home feed and the curated feedare presented to the user on a display of a computing device. Forexample, the user may be following people not in the curated list, andvice versa. This combined feed allows the user to see the tweets fromboth types of feeds at the same time (e.g., on a single display).

FIG. 4 shows on the left a user screen 40 depiction of the handling oftemporary errors/server downtime, and further shows on the right a userscreen 42 depiction of the handling of notifications of new tweets fromTwitter users (even though these are not Twitter users the logged-inuser has explicitly followed), according to one embodiment.

FIG. 5 shows on the left a mention in a user screen 50 of a Twitterlist, and further shows on the right the handling in a user screen 52 ofa user who is not logged into Twitter, according to one embodiment.After the ranking server uses algorithms to calculate what Twitter usersshould be interesting (e.g., relevant as determined by a ranking system)to the logged-in user, the ranking server programmatically assembles aTwitter list consisting of those Twitter users. This allows the user (ofthe mobile or other computing device associated with the ranking server)to view the list of people the ranking server has chosen in a typicalTwitter client, and to also view the stream of tweets from these users.Once the list is created by the ranking server, it can be shared andviewed via typical Twitter clients.

FIG. 5 also contains a depiction of a way for the user to share a linkto the Twitter list with persons that have been determined to be on theTwitter service and also to be more highly-ranked (or more meaningful)contacts of the user.

Additional specific, non-limiting examples of the collection of userdata and personalization of an online service are now discussed below.

In one example, when a person wants to join the Twitter service (or theperson may already be active on the Twitter service), the persontypically needs or desires to determine who to follow immediately, andthen determine over time who else the person should be following.

The ranking server (e.g., ranking server 123) analyzes the person'semails and determines who is important to the person by ranking hercontacts. The ranking server uses email addresses and Twitter IDs todetermine who is using the Twitter service and who the person'stop-ranked contacts are. Based on this, the ranking server recommendsthat the person follow these people. The ranking server also can createa Twitter List using those identified people. The person gets a feedfrom this List as if the person were following these identified people.

This need is not unique to the Twitter service. Any social network mayhave a curation need. A user joining a network has to curate who it isthat the user wants to be following, or in the case of the Facebookservice, be friends with, or in the case of LinkedIn, to be connectedwith.

The relevancy ranking or selection process may be further tuned bylooking at data for people that the user is currently following anddetermining some characteristics of those people, and using data relatedto these characteristics to predict other persons who would beappropriate or relevant for following. For example, for the LinkedInservice, suggestions for someone to be connected to in LinkedIn may bebased in part on analyzing the current people that the user is connectedwith, and examining the connectedness of each such person in the user'sinbox. If a person is not connected to above a predefined number ofother people in the user's inbox, then the user is unlikely to desire toconnect with them. If a person is connected to above a predefined numberof other people that the user already knows (e.g., from inboxcommunications having a lot of emails from those other people), then theuser is likely to want to be connected with that person (and a servermay make the suggestion to connect to that person). Characteristics usedto predict who the user may or may not want to connect with may be basedon data from emails, phone calls, or other communications.

So, the approach described above may be used to curate a user's socialnetwork (automatically and dynamically, or manually). The above approachalso lets a user know who the user should not follow (e.g., personshaving a low relevancy ranking and/or as determined from other collectedor user-specified data).

In one example, because many online networks are public (data from thenetwork is made available publicly), the ranking server may present thedata to a user as if the user had curated a list to follow or beconnected with—the user does not actually have to curate it. So, in thecase of the Twitter service, most people's tweets are public. Theranking server can offer to users an example of what the user's Twitterfeed would have looked like if the user permitted the ranking server torank persons to follow.

In one example, the curation of the Twitter or other service is done onan ongoing basis. For example, a user may have a change in his lifesituation, such as a job change, so that the user does not receiveemails from a supervisor anymore. So, the supervisor's ranking will falland the supervisor is automatically removed from being followed onTwitter due to her falling to a lower relevance (e.g., below a thresholdnumber or defined limit). So, data for this person is dropped from thefeed of data that is provided from the Twitter service. The relevancyrankings may be dynamically recalculated as often as desired (e.g.,every minute, hour or daily), and the relevance of the persons on thelist to follow will be calculated as the user's life changes.

There may be a default relevance that is set to cut off people below acertain relevance, or the user can set this. For example, the user mayadjust by the number of messages that a the user will see per day intotal from all persons. In another situation, the user may want to setthe number of persons to watch, for example 100 persons, because eachperson tweets very little. If the persons tweet a lot, the user may setthe list to follow at, for example, five persons.

Now discussing an exemplary screen from the Twitter service, the usersees a stream of classic tweets (e.g., some of these people have theword “Following” displayed underneath or near them, which indicates thatthe user is already explicitly following those people). For otherpersons on the screen, the user never explicitly followed those personson Twitter. But the ranking server has determined that these areimportant people in the user's network, and has determined their TwitterIDs based on the email addresses of these people.

In one example, the graph of a user that the ranking server determinesis an implicit graph, which is a set of relationships determined byinference based on the user's prior communications. The graphs from atraditional social network such as LinkedIn, Facebook, or Twitter, areexplicit graphs, for which a user indicates with an action thatconnection or following is desired. The ranking server may use theimplicit graph to curate the explicit graph.

In one example, the algorithm used by the ranking server to determinerelevancy for person profiles on a mobile or other computing device maybe further tuned for a specific online service. Each individual onlineservice or network may require that the ranking server addcharacteristics that are not necessarily taken into account for otherrankings (e.g., for a user's Outlook email account). For example, auser's nanny may be highly ranked in one network ranking because theuser has a lot of communications with her, but the nanny may not fitwell the characteristics statistically that would be considered a highlyrelevant match for LinkedIn. For example, the ranking server wouldnotice that people on LinkedIn are fairly highly connected through theuser's business email account. In another example, the ranking serverwould notice that the potential person to be ranked highly and selectedhas an email with a domain from a company that is recognized by athird-party ratings service such as Hoover.

In another example, a user looks at a home screen that includes thenormal Twitter home screen. The same screen display intersperses datafeeds for other persons that have been selected by the ranking server.So, the user can be provided with a single unified data stream (e.g.,that includes everyone that a user would normally be following on his orher Twitter clients and further everyone that the user is implicitlyfollowing based on the ranking server selections). The order of thepersons presented on the single screen is time-based (i.e., based ontime of receipt of the data such as “22 minutes ago”). Theimplicitly-followed people can be shaded or indicated in some other wayon the screen to distinguish them from the explicitly-followed people.

In one example, the ranking server primarily looks at communicationsdata for the user. This may include location information. From all ofthis data, the ranking server develops a model of the user'srelationships—this is the user's social graph. This social graph can beintersected with any online or public service. Value can be added tothat public service based on this knowledge of the user's private world.Thus, private communications of the user may be used to buildpreferences data that can then be used on a third-party server toimprove the relevance of that service for the user. This might be used,for example, for travel, or e-commerce, or public or other events. Theuser's private information may remain private because it is not sharedwith third parties when personalizing the service. The user only sharessufficient data to get a personalized service (e.g., this may be only aportion of the user's social graph).

In another example, the online service is the travel serviceTripAdvisor, which asks a user whether she wants to contact otherfriends of the user that have gone to similar places being considered bythe user. The ranking server may tune down this list of people suggestedby TripAdvisor to those who are most relevant to the user for requestingtravel suggestions (e.g., in this particular context). There are otherservices (e.g., Beluga, GroupMe, or Blackberry Messenger) that maybenefit from the implicit relationships as provided by the rankingserver as opposed to relying merely on a user's explicit graph.

FIG. 6 shows a system to personalize or customize an Internet or otheronline service based on data collected for a user, such as by presentinginformation (e.g., as illustrated in FIGS. 1-5) in a user interfacescreen on a display of a computing device of the user (e.g., a mobiledevice 150 such as an iPhone device), according to one embodiment. InFIG. 6, the user terminals (e.g., 141, 143, . . . , 145) and/or mobiledevices including mobile device 150 are used to access a ranking server123 over a communication network 121. Although the foregoing descriptionoften uses a mobile device for purposes of illustration, the methodsdescribed herein may also be applied to user terminals and other formsof computing devices that interact with ranking server 123 or otherwiseaccess data collected for a user as described above.

The ranking server 123 may include one or more web servers (or othertypes of data communication servers) to communicate with the userterminals (e.g., 141, 143, . . . , 145) and/or mobile devices. An onlineserver 160 provides an online service to mobile device 150 and othermobile devices.

The ranking server 123 may be connected to a data storage facility tostore user provided content, such as multimedia content, navigationdata, preference data, etc. The ranking server 123 may also store orhave access to stored person profiles 154.

Person profiles 154 (and/or person profiles 152) may be created andupdated based on email or other communications to and from mobile device150 and other mobile devices of various users. In an alternativeembodiment, person profiles 152 may be stored in a memory of mobiledevice 150. During operation, mobile device 150 may access and useperson profiles obtained locally from mobile device 150 and/or obtainedover communication network 121 from ranking server 123.

User data 164 (e.g., data regarding Twitter users that is stored atonline server 160 and used for providing the Twitter or other onlineservice and/or data that is provided to or made accessible to users ofthe Twitter or other online service) may be accessed and used (e.g., bymobile device 150 and/or ranking server 123) for relevancy rankingsand/or presentation of contacts as described herein. Mobile device 150or ranking server 123 may access user data 164 or other data from onlineserver 160.

Although FIG. 6 illustrates an example system implemented in clientserver architecture, embodiments of the disclosure can be implemented invarious alternative architectures. For example, the system can beimplemented via a peer to peer network of user terminals, where contentand data are shared via peer to peer communication connections.

In some embodiments, a combination of client server architecture andpeer to peer architecture can be used, in which one or more centralizedservers may be used to provide some of the information and/or servicesand the peer to peer network is used to provide other information and/orservices. Thus, embodiments of the disclosure are not limited to aparticular architecture.

FIG. 7 shows a block diagram of a data processing system which can beused in various embodiments (e.g., to implement ranking server 123 oronline server 160). While FIG. 7 illustrates various components of acomputer system, it is not intended to represent any particulararchitecture or manner of interconnecting the components. Other systemsthat have fewer or more components may also be used.

In FIG. 7, the system 201 includes an inter-connect 202 (e.g., bus andsystem core logic), which interconnects a microprocessor(s) 203 andmemory 208. The microprocessor 203 is coupled to cache memory 204 in theexample of FIG. 7.

The inter-connect 202 interconnects the microprocessor(s) 203 and thememory 208 together and also interconnects them to a display controllerand display device 207 and to peripheral devices such as input/output(I/O) devices 205 through an input/output controller(s) 206. Typical I/Odevices include mice, keyboards, modems, network interfaces, printers,scanners, video cameras and other devices which are well known in theart.

The inter-connect 202 may include one or more buses connected to oneanother through various bridges, controllers and/or adapters. In oneembodiment the I/O controller 206 includes a USB (Universal Serial Bus)adapter for controlling USB peripherals, and/or an IEEE-1394 bus adapterfor controlling IEEE-1394 peripherals.

The memory 208 may include ROM (Read Only Memory), and volatile RAM(Random Access Memory) and non-volatile memory, such as hard drive,flash memory, etc.

Volatile RAM is typically implemented as dynamic RAM (DRAM) whichrequires power continually in order to refresh or maintain the data inthe memory. Non-volatile memory is typically a magnetic hard drive, amagnetic optical drive, or an optical drive (e.g., a DVD RAM), or othertype of memory system which maintains data even after power is removedfrom the system. The non-volatile memory may also be a random accessmemory.

The non-volatile memory can be a local device coupled directly to therest of the components in the data processing system. A non-volatilememory that is remote from the system, such as a network storage devicecoupled to the data processing system through a network interface suchas a modem or Ethernet interface, can also be used. In one embodiment, adata processing system as illustrated in FIG. 7 is used to implement aserver.

In one embodiment, a data processing system as illustrated in FIG. 7 isused to implement a user terminal. A user terminal may be in the form ofa personal digital assistant (PDA), a cellular phone or other mobiledevice, a notebook computer or a personal desktop computer.

In some embodiments, one or more servers of the system can be replacedwith the service of a peer to peer network of a plurality of dataprocessing systems, or a network of distributed computing systems. Thepeer to peer network, or a distributed computing system, can becollectively viewed as a server data processing system.

Embodiments of the disclosure can be implemented via themicroprocessor(s) 203 and/or the memory 208. For example, thefunctionalities described can be partially implemented via hardwarelogic in the microprocessor(s) 203 and partially using the instructionsstored in the memory 208. Some embodiments are implemented using themicroprocessor(s) 203 without additional instructions stored in thememory 208. Some embodiments are implemented using the instructionsstored in the memory 208 for execution by one or more general purposemicroprocessor(s) 203. Thus, the disclosure is not limited to a specificconfiguration of hardware and/or software.

FIG. 8 shows a block diagram of a user device (e.g., mobile device 150)according to one embodiment. In FIG. 8, the user device includes aninter-connect 221 connecting the presentation device 229, user inputdevice 231, a processor 233, a memory 227, a position identificationunit 225 and a communication device 223.

In FIG. 8, the position identification unit 225 is used to identify ageographic location for user content created for sharing. The positionidentification unit 225 may include a satellite positioning systemreceiver, such as a Global Positioning System (GPS) receiver, toautomatically identify the current position of the user device.

In FIG. 8, the communication device 223 is configured to communicatewith a server. In one embodiment, the user input device 231 isconfigured to generate user data content. The user input device 231 mayinclude a text input device, a still image camera, a video camera,and/or a sound recorder, etc.

Various further embodiments are now here described. In one embodiment, amethod, comprises: storing a plurality of person profiles for personsassociated with communications received by a user of a computing device;receiving data associated with an online service; and filtering, usingat least one processor, the data based on the plurality of personprofiles, wherein the filtered data is for display to the user on thecomputing device. In one embodiment, a server includes the at least oneprocessor, and the method further comprises sending the filtered data tothe computing device for display.

In one embodiment, the computing device may be a mobile device, adesktop computer, a laptop computer, a tablet computer, or a computingapparatus for presenting information on an advertising display orelectronic billboard.

In one embodiment, the method further comprises storing data associatedwith prior activities of the user on the computing device, and whereinthe filtering the data is further based on the stored data. In oneembodiment, the computing device includes the at least one processor,and the method further comprises presenting, using a display of thecomputing device, the filtered data to the user. In one embodiment, thepresenting comprises displaying a feed of persons provided from anonline service.

In one embodiment, the method further comprises using message addressesand online service identifiers to determine persons of the plurality ofperson profiles that are active on the online service. In oneembodiment, the method further comprises suggesting to the user a listof persons to be followed on the online service based on the personsdetermined to be active. In one embodiment, the method further comprisesranking the plurality of person profiles, and wherein the filtering usesthe ranking.

In one embodiment, a non-transitory computer-readable storage mediumstores computer-readable instructions, which when executed, cause acomputing apparatus to: store, using at least one processor, a pluralityof person profiles for persons associated with communications receivedby a user of a computing device; create a list of persons available onan online service; receive a feed from the online service that is basedon the list of persons; and customize the feed based on the plurality ofperson profiles.

In one embodiment, the server includes the at least one processor, andthe instructions further cause the computing apparatus to send thecustomized feed to the computing device for display. In one embodiment,the instructions further cause the computing apparatus to store dataassociated with prior activities of the user on the computing device,and wherein the customizing of the feed is further based on the storeddata.

In one embodiment, the instructions further cause the computingapparatus to rank the plurality of person profiles, and the customizinguses the ranking. In one embodiment, the ranking is a relevancy ranking.

In one embodiment, a system, comprises: at least one processor; andmemory storing instructions configured to instruct the at least oneprocessor to: store a plurality of person profiles for personsassociated with communications received by a user of a computing device;determine a set of persons of the person profiles that are active on anonline service; filter the set of persons to provide a plurality ofhighly-ranked persons, the filtering based on the plurality of personprofiles; and create a list using the highly-ranked persons, wherein thelist is for presentation to the user on the computing device.

In one embodiment, each of the persons associated with thecommunications received by the user is a person selected from the groupconsisting of: a person cc'd or copied on one of the communications, aperson bcc'd or blind-copied on one of the communications, a sender ofone of the communications, a recipient of one of the communications, anda person referenced in the body, text, or other content of one of thecommunications.

In one embodiment, the instructions are further configured to instructthe at least one processor to collect communications associated with thecomputing device. The list comprises messages from the highly-rankedpersons. In one embodiment, the system further comprises a display, andwherein the instructions are further configured to instruct the at leastone processor to present, using the display, the list to the user.

In one embodiment, the list comprises data for each of the highly-rankedpersons, and wherein the data is selected from the plurality of personprofiles. In one embodiment, the filtering uses a relevancy ranking foreach of the plurality of person profiles. In one embodiment, the systemfurther comprises a database storing the plurality of person profiles.

In this description, various functions and operations may be describedas being performed by or caused by software code to simplifydescription. However, those skilled in the art will recognize what ismeant by such expressions is that the functions result from execution ofthe code by a processor, such as a microprocessor. Alternatively, or incombination, the functions and operations can be implemented usingspecial purpose circuitry, with or without software instructions, suchas using an Application-Specific Integrated Circuit (ASIC) or aField-Programmable Gate Array (FPGA). Embodiments can be implementedusing hardwired circuitry without software instructions, or incombination with software instructions. Thus, the techniques are limitedneither to any specific combination of hardware circuitry and software,nor to any particular source for the instructions executed by the dataprocessing system.

While some embodiments can be implemented in fully functioning computersand computer systems, various embodiments are capable of beingdistributed as a computing product in a variety of forms and are capableof being applied regardless of the particular type of machine orcomputer-readable media used to actually effect the distribution.

At least some aspects disclosed can be embodied, at least in part, insoftware. That is, the techniques may be carried out in a computersystem or other data processing system in response to its processor,such as a microprocessor, executing sequences of instructions containedin a memory, such as ROM, volatile RAM, non-volatile memory, cache or aremote storage device.

Routines executed to implement the embodiments may be implemented aspart of an operating system, middleware, service delivery platform, SDK(Software Development Kit) component, web services, or other specificapplication, component, program, object, module or sequence ofinstructions referred to as “computer programs.” Invocation interfacesto these routines can be exposed to a software development community asan API (Application Programming Interface). The computer programstypically comprise one or more instructions set at various times invarious memory and storage devices in a computer, and that, when readand executed by one or more processors in a computer, cause the computerto perform operations necessary to execute elements involving thevarious aspects.

A machine readable medium can be used to store software and data whichwhen executed by a data processing system causes the system to performvarious methods. The executable software and data may be stored invarious places including for example ROM, volatile RAM, non-volatilememory and/or cache. Portions of this software and/or data may be storedin any one of these storage devices. Further, the data and instructionscan be obtained from centralized servers or peer to peer networks.Different portions of the data and instructions can be obtained fromdifferent centralized servers and/or peer to peer networks at differenttimes and in different communication sessions or in a same communicationsession. The data and instructions can be obtained in entirety prior tothe execution of the applications. Alternatively, portions of the dataand instructions can be obtained dynamically, just in time, when neededfor execution. Thus, it is not required that the data and instructionsbe on a machine readable medium in entirety at a particular instance oftime.

Examples of computer-readable media include but are not limited torecordable and non-recordable type media such as volatile andnon-volatile memory devices, read only memory (ROM), random accessmemory (RAM), flash memory devices, floppy and other removable disks,magnetic disk storage media, optical storage media (e.g., Compact DiskRead-Only Memory (CD ROMS), Digital Versatile Disks (DVDs), etc.), amongothers. The computer-readable media may store the instructions.

The instructions may also be embodied in digital and analogcommunication links for electrical, optical, acoustical or other formsof propagated signals, such as carrier waves, infrared signals, digitalsignals, etc. However, propagated signals, such as carrier waves,infrared signals, digital signals, etc. are not tangible machinereadable medium and are not configured to store instructions.

In general, a tangible machine readable medium includes any mechanismthat provides (e.g., stores) information in a form accessible by amachine (e.g., a computer, network device, personal digital assistant,manufacturing tool, any device with a set of one or more processors,etc.).

In various embodiments, hardwired circuitry may be used in combinationwith software instructions to implement the techniques. Thus, thetechniques are neither limited to any specific combination of hardwarecircuitry and software nor to any particular source for the instructionsexecuted by the data processing system.

Although some of the drawings illustrate a number of operations in aparticular order, operations which are not order dependent may bereordered and other operations may be combined or broken out. While somereordering or other groupings are specifically mentioned, others will beapparent to those of ordinary skill in the art and so do not present anexhaustive list of alternatives. Moreover, it should be recognized thatthe stages could be implemented in hardware, firmware, software or anycombination thereof.

In the foregoing specification, the disclosure has been described withreference to specific exemplary embodiments thereof. It will be evidentthat various modifications may be made thereto without departing fromthe broader spirit and scope as set forth in the following claims. Thespecification and drawings are, accordingly, to be regarded in anillustrative sense rather than a restrictive sense.

What is claimed is:
 1. A system, comprising: at least one processor; andmemory storing instructions configured to instruct the at least oneprocessor to: store a plurality of person profiles for personsassociated with communications received by a user of a computing device,wherein each of the persons associated with the communications receivedby the user is a sender to the user of one of the communications;determine a set of persons of the person profiles that are active on anonline service; filter the set of persons to provide a plurality ofhighly-ranked persons, wherein the filtering uses a relevancy rankingfor each of the plurality of person profiles; create a list using theplurality of highly-ranked persons, wherein the list is for presentationto the user on the computing device; combine, for presentation to theuser, a stream of messages for the user on the online service and thelist, wherein the list comprises messages from the highly-rankedpersons; and replace a respective user identifier, used by the onlineservice, for each of the plurality of highly-ranked persons with a nameobtained from the corresponding profile of the plurality of personprofiles when presenting a message from the respective highly-rankedperson to the user.
 2. The system of claim 1, wherein the instructionsare further configured to instruct the at least one processor to collectcommunications associated with the computing device.
 3. The system ofclaim 1, wherein the system further comprises a display, and wherein theinstructions are further configured to instruct the at least oneprocessor to present, using the display, the list to the user.
 4. Thesystem of claim 1, wherein the list further comprises data for each ofthe highly-ranked persons, and wherein the data is selected from theplurality of person profiles.
 5. The system of claim 1, furthercomprising a database storing the plurality of person profiles.
 6. Thesystem of claim 1, wherein the instructions are further configured toinstruct the at least one processor to provide an option to the user inwhich the user may select to view the stream of messages or the messagesof the list.
 7. The system of claim 6, wherein the option to the user isan affordance on a web page that is presented to the user.
 8. The systemof claim 1, wherein the stream of messages is a home stream of the useron the online service.
 9. A method, comprising: storing a plurality ofperson profiles for persons associated with communications received by auser of a computing device, wherein each of the persons associated withthe communications received by the user is a sender to the user of oneof the communications; ranking the plurality of person profiles;determining new persons from the plurality of person profiles that areable to be followed on an online service; suggesting, to the user, thenew persons for following when using the online service; receiving afeed from the online service, the feed comprising a respective messagefrom each of the new persons; filtering messages in the feed, fordisplay to the user, based on the ranking; and replacing a respectiveuser identifier, used by the online service, for each of the new personswith a name obtained from the corresponding profile of the plurality ofperson profiles when presenting a message from the respective new personto the user.
 10. The method of claim 9, further comprising adding theuser as a new user of the online service including using the new personsas initial persons for the user to follow on the online service.
 11. Themethod of claim 9, wherein the determining of new persons that are ableto be followed comprises selecting the new persons from persons that aretop-ranked contacts of the user.
 12. The method of claim 9, wherein thedetermining new persons that are able to be followed comprises usingmessage addresses and online service identifiers to determine personsthat are active on the online service.
 13. The method of claim 9,further comprising receiving a selection by the user of a maximum numberof messages that the user is to receive in the filtered feed for anygiven predetermined time period.
 14. The method of claim 9, wherein aserver includes the at least one processor, and the method furthercomprises sending the filtered data to the computing device for display.15. A non-transitory computer-readable storage medium storingcomputer-readable instructions, which when executed, cause a system to:store a plurality of person profiles for persons associated withcommunications received by a user of a computing device, wherein each ofthe persons associated with the communications received by the user is asender to the user of one of the communications; rank, by at least oneprocessor, the plurality of person profiles; determine new persons ofthe plurality of person profiles that are able to be followed on anonline service; provide a feed to the user including messages of the newpersons as if the user were following the new persons on the onlineservice, the messages selected based on the ranking; and replace arespective user identifier, used by the online service, for each of thenew persons with a name obtained from the corresponding profile of theplurality of person profiles when presenting a message from the newperson to the user.
 16. The storage medium of claim 15, wherein theinstructions further cause the system to select a subset of the newpersons based on the ranking, and to provide the feed to the user usingmessages of the subset of the new persons without messages from other ofthe new persons.
 17. The storage medium of claim 15, wherein theinstructions further cause the system to store data associated withprior activities of the user on the computing device, and wherein thefeed is further customized based on the stored data.